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Computational modeling of acute myocardial infarction

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  • P. Sáez
  • E. Kuhl

Abstract

Myocardial infarction, commonly known as heart attack, is caused by reduced blood supply and damages the heart muscle because of a lack of oxygen. Myocardial infarction initiates a cascade of biochemical and mechanical events. In the early stages, cardiomyocytes death, wall thinning, collagen degradation, and ventricular dilation are the immediate consequences of myocardial infarction. In the later stages, collagenous scar formation in the infarcted zone and hypertrophy of the non-infarcted zone are auto-regulatory mechanisms to partly correct for these events. Here we propose a computational model for the short-term adaptation after myocardial infarction using the continuum theory of multiplicative growth. Our model captures the effects of cell death initiating wall thinning, and collagen degradation initiating ventricular dilation. Our simulations agree well with clinical observations in early myocardial infarction. They represent a first step toward simulating the progression of myocardial infarction with the ultimate goal to predict the propensity toward heart failure as a function of infarct intensity, location, and size.

Suggested Citation

  • P. Sáez & E. Kuhl, 2016. "Computational modeling of acute myocardial infarction," Computer Methods in Biomechanics and Biomedical Engineering, Taylor & Francis Journals, vol. 19(10), pages 1107-1115, July.
    • Handle: RePEc:taf:gcmbxx:v:19:y:2016:i:10:p:1107-1115
    DOI: 10.1080/10255842.2015.1105965
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    1. Robert Passier & Linda W. van Laake & Christine L. Mummery, 2008. "Stem-cell-based therapy and lessons from the heart," Nature, Nature, vol. 453(7193), pages 322-329, May.
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